Defining the most profitable remote sensing platforms is a difficult decision‐making process, as it requires agronomic and economic considerations. In this paper, the price and profitability of three levels of remote sensing platforms were evaluated to define a decision‐making process. Prices of satellite, plane and UAV‐acquired vegetation indices were collected in Italy during 2020 and compared to the economic benefits resulting from variable rate nitrogen applica-tion, according to a bibliographic meta‐analysis performed on grains. The quality comparison of these three technologies was performed considering the error propagation in the NDVI formula. The errors of the single bands were used to assess the optical properties of the sensors. Results showed that medium‐resolution satellite data with good optical properties could be profitably used for variable rate nitrogen applications starting from 2.5 hectares, in case of medium resolution with good optical properties. High‐resolution satellites with lower optical quality were profitable starting from 13.2 hectares, while very high‐resolution satellites with good optical properties could be profitably used starting from 76.8 hectares. Plane‐acquired images, which have good optical properties, were profitable starting from 66.4 hectares. Additionally, a reference model for satellite image price is proposed.

Economic comparison of satellite, plane and uav‐acquired ndvi images for site‐specific nitrogen application: Observations from Italy

Sozzi M.;Kayad A.;Gobbo S.;Cogato A.;Sartori L.;Marinello F.
2021

Abstract

Defining the most profitable remote sensing platforms is a difficult decision‐making process, as it requires agronomic and economic considerations. In this paper, the price and profitability of three levels of remote sensing platforms were evaluated to define a decision‐making process. Prices of satellite, plane and UAV‐acquired vegetation indices were collected in Italy during 2020 and compared to the economic benefits resulting from variable rate nitrogen applica-tion, according to a bibliographic meta‐analysis performed on grains. The quality comparison of these three technologies was performed considering the error propagation in the NDVI formula. The errors of the single bands were used to assess the optical properties of the sensors. Results showed that medium‐resolution satellite data with good optical properties could be profitably used for variable rate nitrogen applications starting from 2.5 hectares, in case of medium resolution with good optical properties. High‐resolution satellites with lower optical quality were profitable starting from 13.2 hectares, while very high‐resolution satellites with good optical properties could be profitably used starting from 76.8 hectares. Plane‐acquired images, which have good optical properties, were profitable starting from 66.4 hectares. Additionally, a reference model for satellite image price is proposed.
2021
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3404854
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